An R/D conversion method includes a step of removing a frequency band including a frequency component that is twice an excitation frequency of excitation signals of a resolver (30) from a digital angle value (φ). The R/D conversion method further includes a step of outputting, by the resolver (30), the resolver signals having a phase difference that corresponds to an angle of the resolver with respect to the excitation signals, respectively, and a step of feeding back the digital angle value (φ) includes feeding back the digital angle value (φ) to the resolver signals.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An resolver digital conversion method of converting resolver signals of a resolver of any one of a two-phase excitation/two-phase output type, a one-phase excitation/two-phase output type, or a two-phase excitation/one-phase output type into a digital angle value, the R/D conversion method comprising a step of removing a frequency band including a frequency component that is twice an excitation frequency of excitation signals of the resolver from the digital angle value.
2. The R/D conversion method according to claim 1, further comprising a step of feeding back the digital angle value.
3. The R/D conversion method according to claim 2, wherein the resolver is a two-phase excitation/two-phase output resolver, wherein the R/D conversion method further comprises a step of outputting, by the resolver, the resolver signals having a phase difference that corresponds to an angle of the resolver with respect to the excitation signals, respectively, and wherein the step of feeding back the digital angle value includes feeding back the digital angle value to the resolver signals.
4. The R/D conversion method according to claim 2, wherein the resolver is a two-phase excitation/two-phase output resolver, wherein the step of feeding back the digital angle value includes feeding back the digital angle value to an excitation signal source of the excitation signals, and wherein the excitation signals are signals each having a phase difference that corresponds to the digital angle value.
5. An R/D converter for converting resolver signals of a resolver of any one of a two-phase excitation/two-phase output type, a one-phase excitation/two-phase output type, or a two-phase excitation/one-phase output type into a digital angle value, the R/D converter comprising a filter configured to remove a frequency band including a frequency component that is twice an excitation frequency of excitation signals of the resolver from the digital angle value.
6. The R/D converter according to claim 5, further comprising a feedback control unit configured to feed back the digital angle value.
7. The R/D converter according to claim 6, wherein the resolver is a two-phase excitation/two-phase output resolver, wherein the resolver is configured to output the resolver signals having a phase difference that corresponds to an angle of the resolver with respect to the excitation signals, respectively, and wherein the feedback control unit for feeding back the digital angle value is configured to feed back the digital angle value to the resolver signals.
8. The R/D converter according to claim 6, wherein the resolver is a two-phase excitation/two-phase output resolver, wherein the feedback control unit for feeding back the digital angle value is configured to feed back the digital angle value to an excitation signal source of the excitation signals, and wherein the excitation signals are signals each having a phase difference that corresponds to the digital angle value.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
September 10, 2020
January 7, 2025
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.